EC:2.7.7.49 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We found and previously reported a new mammalian DNA polymerase inhibitor from a sea alga, Gigartina tenella, (Ohta K., et al., Chem. Pharm. Bull., 46, 684-686, 1998). It was a new sulfolipid compound that belonged in the class of sulfoquinovosyldiacylglycerol. The biochemical properties have been investigated here. The compound, temporarily designated KM043, potently inhibited the activities of mammalian DNA polymerase alpha(pol. alpha) and DNA polymerase beta(pol. beta) and terminal deoxynucleotidyl transferase (TdT), and moderately, human immunodeficiency virus reverse transcriptase (HIV-RT). KM043 dose-dependently inhibited their activities, and each of their IC50 values was 0.25 microM for pol. alpha, 0.38 microM for TdT, 3.6 microM for pol. beta, or 11.2 microM for HIV-RT, and almost complete inhibition of each was achieved at 1.0 to 2.0 microM for pol. alpha and TdT, 7.5 microM for pol. beta and about 30 microM for HIV-RT. However, the compound did not influence the activities of prokaryotic DNA polymerases such as E. coli DNA polymerase I, and DNA metabolic enzymes like DNase 1. Inhibition of pol. alpha or beta by KM043 was non-competitive with both the DNA template and the substrate deoxythymidine 5'-triphosphate (dTTP). KM043 was weakly cytotoxic to cultured HeLa-S3 cells, and the IC50 value was 80 microM. KM043 could synergistically enhance the cytocidal effect of an anti-cancer chemotherapy agent, bleomycin. In the presence of 50 microM KM043, the effect ratio of (bleomycin plus KM043)/(bleomysin only) decreased from 0.76 to 0.22.
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PMID:Action of a new mammalian DNA polymerase inhibitor, sulfoquinovosyldiacylglycerol. 1007 26

A DNA polymerase beta (pol. beta) inhibitor has been isolated independently from two organisms; a red perilla, Perilla frutescens, and a mugwort, Artemisia vulgaris. These molecules were determined by spectroscopic analyses to be the cyanogenic glucoside, D-mandelonitrile-beta-D-glucoside, prunasin. The compound inhibited the activity of rat pol. beta at 150 microM, but did not influence the activities of calf DNA polymerase alpha and plant DNA polymerases, human immunodefficiency virus type 1 reverse transcriptase, calf terminal deoxynucleotidyl transferase, or any prokaryotic DNA polymerases, or DNA and RNA metabolic enzymes examined. The compound dose-dependently inhibited pol. beta activity, the IC(50) value being 98 microM with poly dA/oligo dT(12-18) and dTTP as the DNA template and substrate, respectively. Inhibition of pol. beta by the compound was competitive with the substrate, dTTP. The inhibition was enhanced in the presence of fatty acid, and the IC(50) value decreased to approximately 40 microM. In the presence of C(10)-decanoic acid, the K(i) value for substrate dTTP decreased by 28-fold, suggesting that the fatty acid allowed easier access of the compound to the substrate-binding site.
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PMID:The cyanogenic glucoside, prunasin (D-mandelonitrile-beta-D-glucoside), is a novel inhibitor of DNA polymerase beta. 1042 40

The principal component analysis based on the physicochemical properties of amino acid residues is applied to DNA and RNA polymerases to assign the sequence motifs for the polymerization activities of these proteins. After the reconfirmation of the sequence motifs of families A and B of DNA polymerases indicated previously, it elucidates the sequence motifs for the polymerization activity of DNA polymerase III (family C) by the similarity to the polymerization center of multimeric DNA dependent RNA polymerases. This identification proceeds to clarify the sequence motifs for polymerization activities of primases; eukaryotic and archaebacterial primases carry motifs similar to those of family C, while the motifs of eubacterial primase fall into the category of the motifs in family B DNA polymerases such as alpha, delta, epsilon and II. This finding means that DNA dependent RNA polymerases are also divided into groups corresponding to three families, A, B and C, because the monomeric DNA dependent RNA polymerases in phages are reconfirmed to carry sequence motifs similar to those of family A DNA polymerases. Furthermore, the three families of polymerization motifs are found to fall within the variation range of polymerization motifs displayed by many RNA dependent RNA polymerases, suggesting a close evolutionary relation between them. The sequence motifs for polymerization activities of reverse transcriptase and telomerase seem to be the intermediate between family A DNA polymerase and some RNA dependent RNA polymerases, e.g., from Leviviridae. On the contrary, the sequence fragments similar to the nucleotidyltransferase superfamily including DNA polymerase beta are not found in any RNA dependent RNA polymerase, suggesting their other lineage of polymerization motifs.
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PMID:Similarity relations of DNA and RNA polymerases investigated by the principal component analysis of amino acid sequences. 1052 43

Terpenoids, 1, 2 and 3, which selectively inhibit eukaryotic DNA polymerase activities, were isolated from the fruiting body of a basidiomycete, Ganoderma lucidum, and their structures were determined by spectroscopic analyses. New terpenes, lucidenic acid O (1) and lucidenic lactone (2), prevented not only the activities of calf DNA polymerase alpha and rat DNA polymerase beta, but also these of human immunodeficiency virus type 1 reverse transcriptase. Cerevisterol (3), which was reported to be a cytotoxic steroid, inhibited only the activity of DNA polymerase alpha. Although these compounds did not influence the activities of prokaryotic DNA polymerases and other DNA metabolic enzymes such as T7 RNA polymerase and deoxyribonuclease I.
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PMID:Lucidenic acid O and lactone, new terpene inhibitors of eukaryotic DNA polymerases from a basidiomycete, Ganoderma lucidum. 1053 Sep 54

Novel anti-inflammatory compounds, terpeno-benzoic acids, were found from the plant, Myrsine seguinii. The strongest of these anti-inflammatory agents, 3-geranyl-4-hydroxy-5-(3'-methyl-2'-butenyl) benzoic acid (compound 1), showed an inhibitory effect against enzymes involved in replication, such as calf DNA polymerase alpha (pol. alpha), rat DNA polymerase beta (pol. beta) and one of the beta family polymerases, calf thymus terminal deoxynucleotidyl transferase (TdT). The minimum inhibitory concentration (MIC) and IC50 values were 82 and 22 microM for pol. alpha, 86 and 11 microM for pol. beta, 140 and 46 microM for TdT, respectively. However, compound 1 did not influence the activities of plant DNA polymerases, human immunodeficiency virus type-1 reverse transcriptase, any of the prokaryotic DNA polymerases or DNA and RNA metabolic enzymes tested. Dose-dependent relationships were observed between the anti-inflammatory activities and the DNA polymerase-inhibitory activities of the four derivatives. The carboxylic acid moiety in the benzoic acid of the compounds appeared to be related to the inhibitory effects. The mode of action of the terpeno-benzoic acids against the polymerases and their relationships to the anti-inflammatory activity are discussed.
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PMID:Novel anti-inflammatory compounds from Myrsine seguinii, terpeno-benzoic acids, are inhibitors of mammalian DNA polymerases. 1080 30

As described previously, we found that new triterpenoid compounds, designated fomitellic acids A and B, which selectively inhibit the activities of mammalian DNA polymerases alpha and beta [Mizushina, Tanaka, Kitamura, Tamai, Ikeda, Takemura, Sugawara, Arai, Matsukage, Yoshida and Sakaguchi (1998) Biochem. J. 330, 1325-1332; Tanaka, Kitamura, Mizushina, Sugawara and Sakaguchi (1998) J. Nat. Prod. 61, 193-197] and that a known triterpenoid, ursolic acid, is an inhibitor of human DNA topoisomerases I and II (A. Iida, Y. Mizushina and K. Sakaguchi, unpublished work). Here we report that all of these triterpenoids are potent inhibitors of calf DNA polymerase alpha, rat DNA polymerase beta and human DNA topoisomerases I and II, and show moderate inhibitory effects on plant DNA polymerase II and human immunodeficiency virus reverse transcriptase. However, these compounds did not influence the activities of prokaryotic DNA polymerases such as Escherichia coli DNA polymerase I or other DNA metabolic enzymes such as human telomerase, T7 RNA polymerase and bovine deoxyribonuclease I. These triterpenoids were not only mammalian DNA polymerase inhibitors but also inhibitors of DNA topoisomerases I and II even though the enzymic characteristics of DNA polymerases and DNA topoisomerases, including their modes of action, amino acid sequences and three-dimensional structures, differed markedly. These triterpenoids did not bind to DNA, suggesting that they act directly on these enzymes. Because the three-dimensional structures of fomitellic acids were shown by computer simulation to be very similar to that of ursolic acid, the DNA-binding sites of both enzymes, which compete for the inhibitors, might be very similar. Fomitellic acid A and ursolic acid prevented the growth of NUGC cancer cells, with LD(50) values of 38 and 30 microM respectively.
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PMID:Novel triterpenoids inhibit both DNA polymerase and DNA topoisomerase. 1097 Jul 89

Substrate properties of the earlier synthesized and characterized dCTP derivatives bearing in the exo-N-position of cytosine 2-(4-azido-2,3,5,6-tetrafluorobenzoylamino)ethyl (I), 2-(2-nitro-5-azidobenzoylamino)ethyl (II), 2-(4-azido-2,3,5,6-tetrafluorobenzylideneaminooxymethylcarbonylamino)ethyl (III), 4-(4-azido-2,3,5,6-tetrafluorobenzylideneaminooxy)butyloxy (IV), or 4-(4-azido-2,3,5,6-tetrafluorobenzylidenehydrazinocarbonyl)butyl- carbonylamino (V) groups were studied in the primer extension reaction catalyzed by rat DNA polymerase beta. Unlike the earlier results obtained with HIV reverse transcriptase, dCTP derivatives (I)-(III) were not recognized by rat DNA polymerase beta as dTTP analogues, and all the five nucleotides were utilized as dCTP analogues. When compared with dCTP, Km values for the synthesized dCTP derivatives were higher by a factor of 4-20; Vmax were 1-2.3 times higher for (I)-(III) and (V) but 20-fold lower for derivative (IV). Site-specific photomodifications of the primer-template-DNA polymerase beta complexes were carried out using photoreactive reagents PRI-PRV, obtained in situ by extension of 5'-32P-labeled primers with dCTP analogues (I)-(V), respectively, when exposed to UV irradiation at 303-313 nm. Reagents PRI and PRIV provided the maximum photocrosslinking of the 5'-32P-labeled primer to the DNA template (56%) and to the enzyme (20%), respectively. The lowest efficiency of photocrosslinking was observed for PRII (about 1%).
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PMID:[Reagents for modification of protein-nucleic acids complexes. II. Site-specific photomodification of DNA-polymerase beta complexes with primers elongated by the dCTP exo-N-substituted arylazido derivatives]. 1144 42

Formation of palindromic (P) region at the variable (V)-diversity (D)-joining (J) junction in DNA polymerase beta (pol-beta) deficient mice were investigated by sequencing of reverse transcriptase-polymerase chain reaction (RT-PCR) products of mRNAs encoding the beta chain of T cell receptor (TCR). Total 42 and 43 cDNA clones encoding V(beta8)-D(beta)-J(beta)-C(beta) from E18.5 embryonic thymocytes of pol-beta gene knocked-out and wild type control mouse, respectively, were sequenced. Among them five and six clones from pol-beta knocked-out and wild type, respectively, have P insertions of two nucleotides. This result unequivocally indicates that pol-beta, which is one of the repair-type DNA polymerases most abundantly expressed in thymus and spleen, is not essential for the formation of P region.
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PMID:DNA polymerase beta is not essential for the formation of palindromic (P) region of T cell receptor gene. 1147 Jan 51

(R)-(-)-Elenic acid (R-2,4-dimethyl-22-(p-hydroxyphenyl)-docos-3(E)-enoic acid) (EA) is a DNA topoisomerase II inhibitor found in an Indonesian sponge, Plakinastrella sp. We found and report here that it is a potent inhibitor of calf DNA polymerase alpha (IC(50)=7.7 microM) and rat DNA polymerase beta (IC(50)=12.9 microM). EA did not bind to DNA directly. EA did not influence the activities of DNA polymerases such as plant DNA polymerases I and II and prokaryotic DNA polymerases such as Escherichia coli DNA polymerase I, or other DNA metabolic enzymes such as human immunodeficiency virus (HIV) reverse transcriptase, T7 RNA polymerase and bovine deoxyribonuclease I. Interestingly, EA was also an inhibitor of DNA topoisomerases I and II, although the enzymatic characteristics including modes of action, amino acid sequences and three-dimensional structures were markedly different from those of DNA polymerases. EA could prevent the growth of NUGC-3 cancer cells, and the LD(50) value was 22.5 microM. The cells were halted at G1 and G2/M phase in the cell cycle. From these results, the action mode of EA is discussed.
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PMID:Selective inhibition of the activities of both eukaryotic DNA polymerases and DNA topoisomerases by elenic acid. 1185 91

Two anti-inflammatory triterpenoids, tormentic acid (TA) and euscaphic acid (EA), were found from the plant Rubus sieboldii. These triterpenoids showed an inhibitory effect against enzymes involved in replication, such as calf DNA polymerase alpha (pol alpha) and rat DNA polymerase beta (pol beta). The IC50 values of TA and EA were 37 and 61 microM for pol alpha and 46 and 108 microM for pol beta, respectively. However, TA and EA did not influence the activities of plant DNA polymerases, DNA primase, human immunodeficiency virus type-1 reverse transcriptase, terminal deoxynucleotidyl transferase, any of the prokaryotic DNA polymerases or DNA and RNA metabolic enzymes tested. TA and EA could prevent the growth of BALL-1 cancer cells, and the LD50 values were 11 and 48 microM, respectively. The cells were halted at G1 phase in the cell cycle. The mode of action of the triterpenoids against anti-inflammatory activity and their relationships to the DNA polymerase inhibitory activity and cell growth inhibition were discussed.
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PMID:Novel anti-inflammatory compounds from Rubus sieboldii, triterpenoids, are inhibitors of mammalian DNA polymerases. 1200 1

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